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Trends and Variability of Surface Solar Radiation based on satellite-derived CM

SAF Climate Data Records

Jörg Trentmann, Steffen Kothe, Richard Müller, Uwe Pfeifroth, Arturo Sanchez-Lorenzo

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EUMETSAT Satellite Application Facility on

Climate Monitoring (www.cmsaf.eu)

• Satellite-based climate data records of

regional and global coverage

• Instruments: MVIRI-SEVIRI / GERB +

AVHRR + SSM/I-SSMIS

• Surface and ToA radiation, cloud infor-

mation, surface albedo, water vapor,

ocean surface fluxes + precipitation

• Data available: Jan 1982 to October 2016

• Resolutions from 0.03° to 1° and from

15 min to monthly means

• Data freely available: www.cmsaf.eu/wui

Surface Solar Radiation Dataset – Heliosat (SARAH) !  Variables

! Global irradiance (SIS) ! Direct (normalized) irradiance (SID, DNI) ! Effective cloud albedo (CAL)

!  Resolution ! Spatial: 0.05° × 0.05° ! Temporal: hourly, daily, monthly means

!  Coverage ! Spatial: Meteosat-Prime Full disk ! Temporal: 1983 to 2015

!  Satellites / Instruments ! Meteosat 2 to 10 (MVIRI/SEVIRI)

!  ‘Heliosat’-retrieval method

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Surface Solar Radiation Dataset – Heliosat (SARAH-E) !  Variables

! Global irradiance (SIS) ! Direct (normalized) irradiance (SID, DNI)

!  Resolution ! Spatial: 0.05° × 0.05° ! Temporal: hourly, daily, monthly means

!  Coverage ! Spatial: Meteosat-Prime IODC Full disk ! Temporal: 1983 1999 to 2015

!  Satellites / Instruments ! Meteosat 2 to 10 5 and 7 (MVIRI/SEVIRI)

!  ‘Heliosat’-retrieval method

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CLARA (Clouds, Albedo, Radiation based on AVHRR) !  Variables

! Global irradiance (SIS)

! Up- and downwelling longwave (SDL, SOL)

!  Resolution ! Spatial: 0.25° × 0.25° ! Temporal: daily, monthly means

!  Coverage ! Spatial: Global ! Temporal: 1982 to 2015

!  Satellites / Instruments ! NOAA / Metop (AVHRR)

!  ‘Pinker-Laszlo’-look-up-table retrieval method

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Quality assessment by comparison with BSRN

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Accuracy Suitability for

Climate Monitoring

Quality assessment by comparison with BSRN

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!  Surface Irradiance from CM SAF Climate Data Records is very accurate

!  Compared to CERES: extended temporal coverage, higher spatial resolution

Data Nobs Bias [W/m2] MAB [W/m2] AC

SARAH 1983 – 2015, 0.05°

1902 56.111

0.8 0.7

5.5 11.9

0.92 0.95

SARAH-E 1999 – 2015, 0.05°

474 13.717

-1.6 -1.7

7.8 15.0

0.87 0.90

CLARA 1982 – 2015, 0.25°

6433 181.713

-2.4 -2.6

9.7 19.5

0.87 0.89

CERES SYN1deg 2000 – 2015, 1.0°

5392 153.479

2.4 2.3

8.2 17.5

0.88 0.91

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Solar Radiation Climatology

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Sunny Days

Highest likelyhood of stable, sunny conditions beg. May

www.cmsaf.eu/SunnyDays

Globally available for many cities!

Berlin

Sunny Day: Global radiation larger than 80 % of the clear-sky radiation

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Where to go in mid June? Mid June: •  High probability of sunshine

in France / low probability in North-Eastern Europe

•  corresponding weather situations more frequent

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Cluster Analysis of daily irradiance Grouping European Regions according to their variability of Surface Radiation

Öland

Dijon

Pilsen

Assessment of temporal stability and trends

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•  Accuracy of data records stable compared to BSRN and GEBA

•  Temporal trends from BSRN are reproduced.

BSRN

GEBA

Trends in Europe

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•  Positive trend of surface irradiance in satellite data records; both data records show consistent patterns

•  Substantial spatial variability of the trend (consistent with GEBA)

SARAH CLARA

Trend in the US (1992 to 2015)

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•  Strong positive trend of surface irradiance in the CLARA data record with substantial spatial variability

CLARA

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Trend- and Variability-Analysis

GEBA

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CLARA SARAH GEBA

Trend- and Variability-Analysis

•  Substantial temporal variability in decadal trends

•  Moderate agreement of satellite- and surface-based estimates

•  Satellite tends to underestimate

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Winter Spring

Summer Autumn

Trend- and Variability-Analysis: Seasonal

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Winter Spring

Summer Autumn

Trend- and Variability-Analysis: Seasonal

•  Largest trends in spring and summer •  Satellite data consistent with surface

observations •  Largest discrepancy in summer after

2000

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Central

North-West

North

East

South

Trend- and Variability-Analysis: Summer, Regional

•  Decent agreement in summertime variability in Northern Europe

•  Increased under-estimation of trend in Eastern / Central / Southern Europe (after 2000)

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Winter Spring

Summer Autumn

Trend- and Variability-Analysis: Seasonal

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Summary

!  The CM SAF Surface Solar Radiation data sets (SARAH(-E), CLARA) provide high quality information on the surface solar radiation.

!  CM SAF Data Records reproduce the overall temporal trend and spatial variability (in Europe)

!  Go to Berlin in May!

!  Underestimation of the brightening by the satellite data records in Central / Southern Europe after 2000.

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Extra Slides

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The Heliosat method

Reflectivity, 12 UTC, 2 Sept 2008

Min. Reflectivity, Rmin, 12 UTC, Sept 2008

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The Heliosat method

Reflectivity, 12 UTC, 2 Sept 2008 Max. reflectance, Rmax: 95 % percentile of counts during one month in the reference region

Temporal evolution of Rmax

The Heliosat method

The definition of the Cloud Index n:

Cloud Index, 11 UTC, 1 July 2005

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The Heliosat method

• The cloud index, n, is related to the clear-sky index, k.

• The clear-sky index, k, is the ratio between the all-sky surface irradiance, G, and the clear-sky surface irradiance, Gclear

cloud index

clear sky index

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The Heliosat method

• Gclear can be calculated by radiation transfer calculations using the fast and accurate clear-sky model gnu-MAGIC (Mesoscale Atmospheric Global Irradiance Code, Mueller et al., 2009, http://sourceforge.net/projects/gnu-magic/)

• The cloud index, n, is related to the clear-sky index, k:

• The clear-sky index, k, is the ratio between the all-sky surface irradiance, G, and the clear-sky surface irradiance, Gclear:

G = k * Gclear

k = 1 - n